CN213778283U - Ice making evaporator device - Google Patents

Abstract

The utility model discloses an ice making evaporator device, which comprises an ice making tray, a plurality of evaporation pipelines which are formed on the ice making tray at intervals in parallel, and a clapboard component which is arranged on the ice making tray to form a plurality of ice making grids; many evaporation pipelines are followed ice making dish length direction extends to ice making dish both ends, the ice making dish both ends are sheltered from and are provided with two end cap shroudings, be equipped with a plurality of air grooves of two adjacent evaporation pipelines of intercommunication on the end cap shrouding, so that many evaporation pipelines are head-to-tail switch-on in proper order through a plurality of air grooves, adopt this technical scheme's ice making evaporator device, many evaporation pipelines are linear integrated into one piece in the ice making dish, the shaping is made conveniently, reduce manufacturing cost, realize the heat exchange through evaporation pipeline and ice making check bottom surface direct contact, the transmission distance is shorter, the ice making speed is fast, refrigeration effect is better, simplify mounting structure, installation and production is convenient, the work efficiency and the performance of evaporimeter are improved.

Description

Ice making evaporator device

Technical Field

The utility model relates to an ice machine technical field, concretely relates to system ice evaporator device.

Background

The evaporator is one of the most central components in the ice making machine, the ice making machine generates ice after being cooled by a refrigerating system refrigerant through the evaporator, namely, low-temperature condensed liquid passes through the evaporator to exchange heat with outside air, and water is used as a carrier to absorb air heat to exchange the air heat with a water medium, so that the refrigerating effect is achieved.

Chinese patent document CN111076465A discloses an ice mold evaporator of an ice making machine, which comprises a refrigeration evaporation pan and an ice mold; the front end surface of the refrigeration evaporation disc is provided with a long groove, both ends of the long groove are provided with through holes for connecting refrigerant pipes, the opening end of the long groove is sealed by the rear end surface of the ice mold to form a refrigerant channel, namely, the refrigeration evaporation disc is installed at the bottom of the ice mold, and the front end surface of the ice mold is provided with ice grids; the refrigeration evaporation tray is formed by punching an aluminum plate, the long groove on the refrigeration evaporation tray is formed by two spiral sections which are connected in an end-to-end mode, and the rotating directions of the two spiral sections are opposite.

As can be seen from the above structure of the ice mold evaporator of the ice maker, the following problems still exist: 1. the refrigeration evaporation disc is coiled at the bottom of the ice mold, and heat is indirectly transferred to the ice grids positioned on the front end surface through the rear end surface of the ice mold, so that the ice making efficiency is influenced; 2. the cold evaporation dish is longer at the spiral extension distance of ice mould bottom, and the required consumptive material volume of preparation is big, and need carry out many places bending technology and handle, the shaping technology degree of difficulty, and manufacturing cost is high.

SUMMERY OF THE UTILITY MODEL

Therefore, the to-be-solved technical problem of the utility model lies in overcoming among the prior art evaporation dish of ice-making evaporimeter and coiling in the chassis bottom, through the indirect ice cube tray heat transfer in chassis, ice-making is inefficient to and the whole evaporation dish shaping technology degree of difficulty is big, problem that manufacturing cost is high.

In order to solve the above technical problem, the utility model provides an ice-making evaporator device, include:

the ice making tray comprises a plurality of evaporation pipelines which are formed on the ice making tray at intervals in parallel, and the evaporation pipelines extend to two ends of the ice making tray along the length direction of the ice making tray;

the partition plate assembly is arranged on the ice making tray to form a plurality of ice making grids;

and the two plug sealing plates are respectively arranged at two ends of the ice making disc in a shielding manner, and a plurality of vent grooves communicated with the two adjacent evaporation pipelines are arranged on the two plug sealing plates, so that the plurality of evaporation pipelines are sequentially communicated end to end through the plurality of vent grooves.

Preferably, a positioning structure for keeping the relative position of the plug sealing plate and the ice making tray fixed is arranged between the plug sealing plate and the ice making tray.

As a preferred scheme, a plurality of baffle structures are arranged between the evaporation pipelines, the positioning structure comprises a plurality of positioning boss components arranged on the plug sealing plate facing the evaporation pipelines and positioning clamping grooves arranged on the positioning boss components corresponding to the baffle structures, and the positioning boss components are clamped at one ends of the baffle structures when being inserted into the evaporation pipelines.

Preferably, the positioning boss assemblies and the ventilation grooves are arranged in a staggered manner at intervals in sequence along the extending direction of the plug sealing plate.

Preferably, each positioning boss assembly comprises two oppositely arranged lugs, and the positioning clamping groove is arranged between the two lugs.

Preferably, the vent groove is a strip-shaped groove structure.

Preferably, the partition assembly includes a plurality of first partitions integrally formed on the top of the ice tray and extending along the length direction of the ice tray, and a plurality of second partitions extending along the width direction of the ice tray and intersecting with the first partitions to form the ice cube tray.

Preferably, two evaporation pipelines are connected to the bottom of each ice cube tray.

As a preferred scheme, a limiting structure is arranged between the first partition plate and the second partition plate, and the limiting structure comprises a lower slot opening formed in the first partition plate and an upper slot opening correspondingly formed in the second partition plate and in opposite insertion fit with the lower slot opening.

As a preferred scheme, the bottom of the evaporation tray is provided with an air inlet pipe and an air outlet pipe which are respectively communicated with the two evaporation pipes at the outermost side.

The utility model discloses technical scheme has following advantage:

1. the utility model provides an ice-making evaporator device, according to many evaporation pipelines are parallel interval shaping on ice tray, through sheltering from the end cap shrouding at ice tray both ends, utilize the air channel on two end cap shrouding to make many evaporation pipelines connect end to end in proper order, thereby form a circulation pipeline that supplies the refrigerant constantly to flow between many evaporation pipelines, adopt this technical scheme, many evaporation pipelines are the linear integrated into one piece in ice tray, the preparation needs few materials, the shaping manufacturing is convenient, reduce manufacturing cost, realize the heat exchange through evaporation pipeline and ice tray bottom surface direct contact, play the effect of quick ice-making tray bottom refrigeration, the transmission distance is shorter, ice-making speed is fast, refrigeration effect is better, avoid adopting the evaporation pipe structure that coils and sets up below the chassis again, simplify the mounting structure, the installation production is convenient, the working efficiency and the performance of the evaporator are improved.

2. The utility model provides a pair of in ice-making evaporator device, the end cap shrouding is installed and is played sealed effect of sheltering from at ice-making dish both ends to many evaporation pipeline both ends, and realize the intercommunication of two adjacent evaporation pipelines through the air channel that sets up on it, finally realize putting through many evaporation pipelines in proper order together, when the installation end cap shrouding, make location boss subassembly centre gripping insert in the one end of two adjacent evaporation pipelines through the positioning channel groove joint on the baffle structure, thereby it is fixed to make the end cap shrouding keep relative mounted position with the ice-making dish, prevent that the end cap shrouding from taking place that the mounted position rocks and squints, play the location installation effect to the end cap shrouding, just so make things convenient for follow-up carry out welding process to end cap shrouding and ice-making dish and handle, and convenient for installation, and good installation stability.

3. The utility model provides a pair of ice making evaporator device, first baffle and evaporation pipeline all with ice tray integrated into one piece, the shaping is made conveniently, overall structure stability is good, reduces the production of spare part, during the equipment, as long as install ice tray both ends with two end cap shroudings, be again with second baffle and first baffle be crossing form install ice tray on can, the installation step is simplified in the design like this, install more convenient and fast, improve the installation effectiveness.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the technical solutions in the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural view of an ice-making evaporator device provided by the present invention;

FIG. 2 is a schematic view of the installation structure of the air inlet pipe and the air outlet pipe of the present invention;

fig. 3 is a schematic cross-sectional view of an ice-making evaporator device according to the present invention;

fig. 4 is a partially enlarged schematic view of the ice-making evaporator device of fig. 3;

fig. 5 is a schematic structural view of an ice tray and a partition plate assembly according to the present invention;

description of reference numerals: the ice making device comprises an ice making disc 1, an ice making disc 11, a first partition plate 12, a second partition plate 13, a lower insertion notch, an upper insertion notch 14, an evaporation pipeline 2, a baffle plate structure 21, a plug sealing plate 3, a ventilation groove 31, an ice making grid 4, a positioning boss component 5, a positioning clamping groove 51, a lug 52, an air inlet pipe 6 and an air outlet pipe 7.

Detailed Description

The technical solution of the present invention will be described clearly and completely with reference to the accompanying drawings, and obviously, the described embodiments are some, but not all embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "first", "second" and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example 1

The present embodiment is described in detail below with reference to the accompanying drawings:

the present embodiment provides an ice making evaporator apparatus as shown in fig. 1-5, comprising:

the ice making tray comprises an ice making tray 1 and a plurality of evaporation pipelines 2, wherein the ice making tray 1 comprises the evaporation pipelines 2 which are formed on the ice making tray at intervals in parallel, and the evaporation pipelines 2 extend to two ends of the ice making tray 1 along the length direction of the ice making tray 1;

a partition assembly disposed on the ice-making tray 1 to form a plurality of ice-making cells 4;

and the two plug seal plates 3 are respectively arranged at two ends of the ice making disc 1 in a shielding manner, and a plurality of vent grooves 31 communicated with the two adjacent evaporation pipelines 2 are formed in the plug seal plates, so that the evaporation pipelines 2 are sequentially communicated end to end through the plurality of vent grooves.

The above embodiment is the core technical solution of this embodiment, a plurality of evaporation pipelines are formed on the ice tray 1 at parallel intervals, the plug seal plates 3 are shielded at two ends of the ice tray 1, and the ventilation grooves on the two plug seal plates 3 are utilized to sequentially connect the plurality of evaporation pipelines 2 end to end, so as to form a circulation pipeline for the refrigerant to continuously flow between the plurality of evaporation pipelines, by adopting the technical solution, the plurality of evaporation pipelines 2 are linearly and integrally formed in the ice tray 1, the required material consumption is less, the forming and manufacturing are convenient, the manufacturing cost is reduced, the heat exchange is realized by directly contacting the evaporation pipelines 2 with the bottom surface of the ice tray 4, the effect of rapidly refrigerating and freezing the bottom of the ice tray 4 is achieved, the transmission distance is shorter, the ice making speed is fast, the refrigeration effect is better, and the adoption of the evaporation pipe structure arranged below the chassis in a coiling manner is avoided, simplify mounting structure, installation production is convenient, improves the work efficiency and the performance of evaporimeter.

In order to prevent the plug seal plates 3 from generating installation position deviation at the two ends of the ice making tray 1 and ensure the installation stability of the plug seal plates 3, a positioning structure for keeping the relative positions of the plug seal plates 3 and the ice making tray 1 fixed is arranged between the plug seal plates 3 and the ice making tray 1.

As a preferred embodiment, as shown in fig. 3-4, a plurality of baffle structures 21 are disposed between the plurality of evaporation pipelines 2, the positioning structure includes a plurality of positioning boss assemblies 5 disposed on the plug seal plate 3 facing the evaporation pipelines 2, and positioning slots 51 disposed on the positioning boss assemblies 5 corresponding to the baffle structures 21, the positioning slots 51 are clamped at one ends of the baffle structures 21 when the positioning boss assemblies 5 are inserted into the evaporation pipelines, by the above arrangement, the plug seal plates 3 are mounted at two ends of the ice making tray 1 to perform a sealing and shielding function on two ends of the plurality of evaporation pipelines 2, and the ventilation slots 31 disposed thereon are used to communicate two adjacent evaporation pipelines 2, so as to finally realize that the plurality of evaporation pipelines 2 are sequentially connected together. Therefore, in the installation of the plug sealing plate 3, the positioning boss assembly 5 is clamped and inserted into one end of each of two adjacent evaporation pipelines through the positioning clamping groove 51 in a clamped manner when the baffle structure 21 is arranged, so that the plug sealing plate 3 and the ice making tray 1 are fixed in relative installation positions, the plug sealing plate 3 is prevented from shaking and offsetting the installation positions, the plug sealing plate 3 plays a positioning and installation role, the subsequent welding process treatment on the plug sealing plate and the ice making tray is facilitated, the installation is convenient, and the installation stability is good.

Referring to fig. 2-3, in order to make the plug sealing plates 3 seal one end of the evaporation pipeline, a plurality of the positioning boss assemblies 5 and a plurality of the ventilation grooves 31 are sequentially arranged at intervals and staggered along the extending direction of the plug sealing plates 3, so that the positioning boss assemblies 5 do not block two adjacent evaporation pipelines which need to be connected through the ventilation grooves, and one ends of the two adjacent evaporation pipelines which do not need to be connected are blocked by the positioning boss assemblies 5, so that a circulating evaporation line for a refrigerant to sequentially flow through the evaporation pipelines can be formed by the mutual cooperation of the two plug sealing plates 3 and the evaporation pipelines 2, the heat exchange effect and the circulating refrigeration efficiency of the refrigerant are improved, and an air inlet pipe 6 and an air outlet pipe 7 which are respectively communicated with the two evaporation pipelines 2 at the outermost side are installed at the bottom of the ice tray 1, when in refrigeration, the refrigerant gas flowing in from the air inlet pipe 6 flows in sequence along a circulating evaporation line formed by connecting a plurality of evaporation pipelines 2 and the vent grooves 31, finally flows out from the air outlet pipe 7, then flows back to the air inlet pipe through compressor equipment, and the refrigerant gas is circulated and refrigerated.

As a structural arrangement, the vent grooves 31 are bar-shaped groove structures, each of the positioning boss assemblies 5 includes two oppositely disposed protrusions 52, the positioning clamping groove 51 is disposed between the two protrusions 52, the two protrusions 52 can be respectively inserted into one end of each of the two adjacent evaporation pipelines, and the two protrusions 52 are oppositely extruded on two sides of the baffle structure through the positioning clamping grooves, so as to ensure the installation stability of the plug sealing plate.

The specific arrangement of the ice cube tray and the partition plate assembly will be described in detail with reference to fig. 1 and 5:

the partition plate assembly comprises a plurality of first partition plates 11 which are integrally formed at the top of the ice making disc 1 and extend along the length direction of the ice making disc 1, and a plurality of second partition plates 12 which extend along the width direction of the ice making disc 1 and intersect with the first partition plates 11 to form the ice making grids 4.

The bottom of the ice cube tray 4 of each cell is connected with two evaporation pipelines 2, so that the evaporation contact area of the ice cube tray 4 of each cell is increased, a refrigerant flowing through the evaporation pipelines 2 can fully contact the ice cube tray 4, the heat exchange effect of the refrigerant is improved, and the ice making efficiency of the ice cube tray is improved.

As a preferred embodiment, a limiting structure is arranged between the first partition board 11 and the second partition board 12, the limiting structure includes a lower slot opening 13 arranged on the first partition board 11, and an upper slot opening 14 correspondingly arranged on the second partition board 12 and in butt-joint fit with the lower slot opening 13, and this structure is arranged, so that the first partition board 11 and the second partition board 12 are positioned at the relative positions through the butt-joint of the lower slot opening 13 and the upper slot opening 14, and the second partition board 11 in butt-joint with the first partition board 11 plays a role in limiting installation, thereby preventing sliding and shifting phenomena, facilitating installation and positioning, and improving installation efficiency.

It should be understood that the above examples are only for clarity of illustration and are not intended to limit the embodiments. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. And obvious variations or modifications can be made without departing from the scope of the invention.

Claims (10)

1. An ice-making evaporator apparatus, comprising:

the ice making tray (1) comprises a plurality of evaporation pipelines (2) which are formed on the ice making tray at intervals in parallel, and the evaporation pipelines (2) extend to the two ends of the ice making tray (1) along the length direction of the ice making tray (1);

the partition plate assembly is arranged on the ice making tray (1) to form a plurality of ice making cells (4);

the two plug sealing plates (3) are respectively arranged at two ends of the ice making disc (1) in a shielding mode, and a plurality of vent grooves (31) communicated with the two adjacent evaporation pipelines (2) are formed in the plug sealing plates, so that the evaporation pipelines (2) are sequentially communicated end to end through the vent grooves.

2. An ice-making evaporator unit according to claim 1, wherein: and a positioning structure for keeping the relative position of the plug closing plate (3) and the ice making disc (1) fixed is arranged between the plug closing plate and the ice making disc.

3. An ice-making evaporator unit according to claim 2, wherein: many be provided with a plurality of baffle structures (21) between evaporation pipeline (2), location structure includes towards evaporation pipeline (2) set up a plurality of location boss subassembly (5) on end cap shrouding (3) and correspond baffle structure (21) set up location draw-in groove (51) on location boss subassembly (5), location draw-in groove (51) are in location boss subassembly (5) insert the joint is in during the evaporation pipeline the one end of baffle structure (21).

4. An ice-making evaporator unit according to claim 3, wherein: the positioning boss assemblies (5) and the ventilation grooves (31) are sequentially arranged in a staggered mode at intervals in the extending direction of the plug sealing plate (3).

5. An ice-making evaporator unit according to claim 4, wherein: each positioning boss component (5) comprises two oppositely arranged lugs (52), and the positioning clamping groove (51) is arranged between the two lugs (52).

6. An ice-making evaporator unit according to claim 5, wherein: the vent groove (31) is of a strip-shaped groove structure.

7. An ice making evaporator unit according to any one of claims 1 to 6 wherein: the partition plate assembly comprises a plurality of first partition plates (11) which are integrally formed at the top of the ice making tray (1) and extend along the length direction of the ice making tray (1), and a plurality of second partition plates (12) which extend along the width direction of the ice making tray (1) and intersect with the first partition plates (11) to form the ice making grids (4).

8. An ice-making evaporator unit according to claim 7, wherein: the bottom of each ice making cell (4) is connected with two evaporation pipelines (2).

9. An ice-making evaporator unit according to claim 8, wherein: be provided with limit structure between first baffle (11) and second baffle (12), limit structure is including setting up lower notch (13) on first baffle (11) and the corresponding setting on second baffle (12) and with lower notch (13) is to inserting complex and is inserted notch (14) on.

10. An ice-making evaporator unit according to claim 1, wherein: and an air inlet pipe (6) and an air outlet pipe (7) which are respectively communicated with the two evaporation pipelines (2) on the outermost side are arranged at the bottom of the ice making tray (1).

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