CN213811230U - Spliced ice maker evaporator - Google Patents

Abstract

The utility model discloses a concatenation formula ice machine evaporimeter, it includes middle elbow, tip elbow and two at least barrel units, the intermediate level of barrel unit is equipped with the pipeline of multiunit holding refrigerant, the inboard range of barrel unit has the first ice check that is used for making ice, all the barrel unit connects gradually and splices into the tubular construction that has the through-hole jointly, so that tubular construction's inside forms the freezing space, middle elbow is used for communicateing adjacent two the pipeline, the both ends are connected to the tip elbow the pipeline with be used for letting in the refrigerant or deriving the refrigerant, so that the multiunit the pipeline forms the freezing runner that switches on jointly. The spliced ice maker evaporator of the utility model has the advantages of environmental protection, energy conservation, good freezing effect and simple structure.

Description

Spliced ice maker evaporator

Technical Field

The utility model relates to an ice-making apparatus field especially relates to a concatenation formula ice machine evaporimeter.

Background

An ice tray of an existing ice maker is formed by separately arranging a parting strip, a bottom plate and a refrigeration pipeline, the refrigeration pipeline is coiled and welded on the bottom plate of the ice tray, and the ice tray is small in contact area, low in energy transfer efficiency and low in energy efficiency.

Most of the existing ice trays are integrally of a plate-shaped structure, so that cold air leakage can be caused, the freezing efficiency is influenced, the power resource is wasted, and the existing production requirements cannot be met.

Therefore, there is a need for a spliced ice maker evaporator that solves the above problems.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an environmental protection and energy saving, refrigeration effect is good and simple structure's concatenation formula ice machine evaporimeter.

In order to realize the above object, the utility model provides a concatenation formula ice machine evaporimeter, it includes middle elbow, tip elbow and two at least barrel units, the intermediate level of barrel unit is equipped with the pipeline of multiunit holding refrigerant, the inboard range of barrel unit has the first ice check that is used for making ice, all the barrel unit connects gradually and splices into the tube structure who has the through-hole jointly to make the common of barrel unit enclose into freezing space, middle elbow is used for communicateing adjacent two the pipeline, the tip elbow connects both ends the pipeline with be used for letting in the refrigerant or deriving the refrigerant, so that the multiunit the pipeline forms the freezing runner that switches on jointly.

Preferably, the cross section of the cylinder structure is circular or polygonal.

Preferably, all of the cartridge units are joined together by a snap fit.

Specifically, one side of the cylinder unit is provided with a clamping protrusion, and the other side of the cylinder unit is provided with a clamping groove matched with the clamping protrusion.

Preferably, a first water injection hole is formed in the first ice grid.

Preferably, a second ice tray for making ice is arranged at an outer side of the cartridge unit.

Specifically, a second water injection hole is formed in the second ice grid.

Preferably, the cylinder unit is integrally formed by extrusion.

Preferably, the intermediate elbow is U-shaped.

Preferably, the end bend is "L" shaped.

Compared with the prior art, the utility model discloses a concatenation formula ice machine evaporimeter is owing to be provided with two at least barrel units, the intermediate level of barrel unit is equipped with the pipeline of multiunit holding refrigerant, the inboard range of barrel unit has the first ice check that is used for making ice, utilize the water in the first ice check of refrigerant refrigeration that lets in the pipeline, thereby reach the purpose of making ice, all barrel units connect gradually and splice into the tubular construction who has the through-hole jointly, so that barrel unit's common encloses into the refrigeration space, because the common freezing space that encloses of barrel unit, just so can avoid revealing of inside air conditioning, not only improve freezing efficiency, the heat preservation effect is good with electric power resources are saved, and has the space-saving advantage. The utility model discloses a concatenation formula ice machine evaporimeter still has simple structure's advantage.

Drawings

Fig. 1 is a schematic perspective view of the evaporator of the spliced ice making machine of the present invention.

Fig. 2 is another schematic perspective view of the evaporator of the spliced ice making machine according to the present invention.

Fig. 3 is a schematic plan view of the spliced ice maker evaporator of the present invention in a top view.

Detailed Description

In order to explain technical contents, structural features, and objects and effects of the present invention in detail, a first embodiment will be described in detail with reference to the accompanying drawings.

Referring to fig. 1 to 3, the present invention provides a spliced ice maker evaporator 100, the spliced ice maker evaporator 100 includes a middle elbow 1, an end elbow 2 and at least two cylinder units 3a, a plurality of groups of pipelines 31 for accommodating refrigerants are disposed in the middle layer of the cylinder units 3a, first ice grids 32 for making ice are arranged inside the cylinder units 3a, and the cylinder units 3a are integrally formed by extrusion, for example, the first ice grids 32 and the pipelines 31 are directly extruded through aluminum alloy sections; first ice check 32 department is equipped with the water pipe of broadcasting, it has first water injection hole (not shown) of being equipped with of water to broadcast to open on the water pipe, treat during refrigerated water flows into first ice check 32 through first water injection hole, utilize the water in the first ice check 32 of refrigerant refrigeration that lets in the pipeline 31, thereby reach the purpose of ice-making, all barrel units 3a connect gradually and splice into barrel structure 3 that has the through-hole jointly, so that barrel unit 3 a's common freeze space that encloses, because barrel unit 3 a's common freeze space that encloses, just so can avoid revealing of inside air conditioning, not only improve freezing efficiency, the heat preservation effect is good with electric power resources are saved, and has the space-saving advantage. The middle elbow 1 is used for communicating two adjacent pipelines 31, the end elbow 2 connects the pipelines 31 at two ends and is used for leading in or leading out the refrigerant, so that a plurality of groups of pipelines 31 jointly form a communicated freezing flow channel, namely the refrigerant flows in through the end elbow 2 at the inlet end, the pipeline 31 entering the cylinder unit 3a flows into the pipeline 31 of the other cylinder through the middle elbow 1, the refrigerant flows out from the end elbow 2 at the outlet end after passing through the middle elbows 1 and the pipelines 31, so that a freezing flow channel is formed, the refrigerant continuously exchanges heat with the water in the first ice tray 32 through the change of the refrigerant form, and the purpose of making ice is further achieved, and the refrigerant is a refrigerant, but not limited to the refrigerant. Preferably, the intermediate bends 1 are "U" shaped and the end bends 2 are "L" shaped, but are not limited thereto. More specifically, the following:

referring to fig. 1 to 3, all the cylinder units 3a are spliced together by clamping, so that the cylinder units are convenient to assemble and disassemble and convenient to transport. One side of the cylinder unit 3a is provided with a clamping protrusion 33, and the other side of the cylinder unit 3a is provided with a clamping groove 34 matched with the clamping protrusion 33, that is, the clamping protrusion 33 of one cylinder unit 3a is clamped and connected with the clamping groove 34 of another cylinder unit 3a, so that the two adjacent cylinder units 3a are spliced, and the plurality of cylinder units 3a are spliced into the cylinder structure 3 by connecting the plurality of cylinder units 3a in series. Preferably, the cross-section of the cylinder structure 3 is circular or polygonal, but not limited thereto.

Referring to fig. 1 to 3, a second ice tray (not shown) for making ice is arranged outside the cylinder unit 3a, a water pipe is disposed at the second ice tray, a second water injection hole (not shown) for water is formed in the water pipe, water to be cooled enters the second ice tray through the second water injection hole, and the arrangement of the second ice tray can realize the internal and external cooling of the cylinder structure 3, so that the efficiency of making ice can be further improved.

Referring to fig. 1 to fig. 3, the working principle of the evaporator 100 of the spliced ice making machine of the present invention is further explained as follows:

when ice is needed to be made, water to be made ice enters the first ice tray 32 and the second ice tray or one of the first ice tray and the second ice tray, a refrigerant flows in through the end elbow 2 at the inlet end, enters the pipeline 31 in the barrel unit 3a and flows into the pipeline 31 of the other barrel through the middle elbow 1, and finally flows out from the end elbow 2 at the outlet end after passing through the middle elbows 1 and the pipeline 31, so that a frozen flow channel is formed, and heat exchange is continuously carried out with the water in the first ice tray 32 through the change of the refrigerant form, and the purpose of making ice is further achieved.

The utility model discloses a concatenation formula ice machine evaporimeter 100 is owing to be provided with two at least barrel unit 3a, barrel unit 3 a's intermediate level is equipped with the pipeline 31 of multiunit holding refrigerant, barrel unit 3 a's inboard is arranged there is the first ice check 32 that is used for making ice, utilize the water in the first ice check 32 of refrigerant refrigeration that lets in the pipeline 31, thereby reach the purpose of making ice, all barrel unit 3a connect gradually and splice into the tubular construction 3 that has the through-hole jointly, so that barrel unit 3 a's common freeze space that encloses, because barrel unit 3 a's common freeze space that encloses, just so can avoid revealing of inside air conditioning, not only improve freezing efficiency, the heat preservation effect is good with saving electric power resource, and has the space-saving advantage. The spliced ice maker evaporator 100 of the present invention has the advantage of simple structure.

The scope of the invention should not be limited to the specific embodiments disclosed, but should be determined only by the following claims and their equivalents.

Claims (10)

1. A spliced ice maker evaporator, comprising: middle elbow, tip elbow and two at least barrel units, the intermediate level of barrel unit is equipped with the pipeline of multiunit holding refrigerant, the inboard of barrel unit is arranged and is had the first ice check that is used for making ice, all the barrel unit connects gradually and splices into the tubular construction that has the through-hole jointly, so that barrel unit encloses into jointly and freezes the space, middle elbow is used for communicateing two adjacent the pipeline, the tip elbow is connected both ends the pipeline with be used for letting in the refrigerant or deriving the refrigerant, so that the multiunit the pipeline forms the freezing runner that switches on jointly.

2. The spliced ice-making machine evaporator of claim 1, wherein the barrel structure is circular or polygonal in cross-section.

3. The spliced ice-making machine evaporator of claim 1, wherein all of the cartridge units are spliced together by a snap fit.

4. The spliced ice-making machine evaporator according to claim 3, wherein one side of the cartridge unit is provided with a catching protrusion, and the other side of the cartridge unit is provided with a catching groove engaged with the catching protrusion.

5. The evaporator of the spliced ice making machine according to claim 1, wherein a water spreading pipe is arranged at the first ice grid, and a first water injection hole for water outlet is formed in the water spreading pipe.

6. The evaporator for a spliced ice making machine according to claim 1, wherein a second ice tray for making ice is arranged outside the drum unit.

7. The evaporator of the spliced ice-making machine according to claim 6, wherein a water spreading pipe is arranged at the second ice grid, and a second water injection hole for water outlet is formed in the water spreading pipe.

8. The spliced ice-making machine evaporator of claim 1, wherein the cartridge unit is an aluminum alloy extrusion integral molding.

9. The spliced ice-making machine evaporator of claim 1, wherein the intermediate bend is "U" shaped.

10. The spliced ice-making machine evaporator of claim 1, wherein the end bend is "L" shaped.

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