CN109341148B - Refrigerating evaporator structure - Google Patents

Abstract

The invention discloses a refrigeration evaporator structure, which belongs to the field of refrigeration evaporator structures, and solves the problems that in the prior art, the structure of a sender is a welded structure, welding lines are unfavorable for refrigerating smaller ice cubes, and the welded structure is unfavorable for mounting, dismounting, damaging and replacing, and the technical scheme is mainly adopted: the refrigeration plate includes: the refrigerator comprises a plurality of arc grooves, wherein the arc grooves are vertically arranged, the lower transverse edge of the arc groove at the upper side is connected with the upper transverse edge of the arc groove at the lower side between two adjacent arc grooves, a through groove hole is formed in the joint of the lower transverse edge of the arc groove, the through groove hole is tangential with the outer walls of the arc grooves at the upper and lower sides of the arc groove, a plurality of baffle grooves are formed in the surface of a first refrigeration plate, a baffle is inserted in each baffle groove, the through holes in the baffle are communicated with the through groove hole in a butt joint mode, fixing rods are inserted in each through groove hole, and penetrate through the corresponding baffle to be through holes, and the refrigerator is mainly used for refrigerating ice cubes and has the technical effects that: simple structure is integrative, the installation is dismantled conveniently, and refrigeration ice-cube is complete.

Description

Refrigerating evaporator structure

Technical Field

The invention relates to the field of refrigeration evaporators, in particular to a refrigeration evaporator structure.

Background

The refrigeration board structure of prior art evaporator is equipped with a plurality of horizontal refrigeration groove of arranging, inserts on the refrigeration groove cross wall groove through the baffle, falls into the little refrigeration square of one by one with the refrigeration board, and the baffle bottom is through welding, electroplating and horizontal refrigeration tank bottom fixed connection, and the defect that exists lies in: 1. the welding and electroplating structure is only suitable for refrigerating larger ice cubes, the smaller ice cubes cannot be refrigerated to form, the second welding and electroplating structure enables the refrigerating plate to be integrated, the refrigerating plate is easy to deform in use, the installation and the disassembly are inconvenient, and the damage and the maintenance are not facilitated.

Disclosure of Invention

The invention aims to provide a refrigeration evaporator structure, which solves the problems that in the prior art, the evaporator structure is a welded structure, welding lines are not beneficial to refrigerating smaller ice cubes, and the welded structure is not beneficial to mounting, dismounting, damaging and replacing, and has the technical effects that: simple structure is integrative, the installation is dismantled conveniently, the refrigeration ice-cube is complete, increases evaporation area.

In order to achieve the above purpose, the present invention adopts the following technical scheme:

a refrigeration evaporator structure comprising: refrigeration pipe, first refrigeration board, second refrigeration board, baffle, fixed stick, be equipped with a plurality of spaced perforation on the baffle, first refrigeration board includes: the plurality of arc grooves are vertically arranged, the lower transverse edge of the arc groove at the upper side is connected with the upper transverse edge of the arc groove at the lower side between two adjacent arc grooves, a plurality of baffle grooves are arranged on the surface of the first refrigeration plate, each baffle groove is internally provided with a baffle, each perforation on the baffle is communicated with a clearance arc groove between the corresponding two adjacent arc grooves, each clearance arc groove is internally provided with a fixing rod, each perforation on the same row of baffle, the second refrigeration plate is symmetrical with the first refrigeration plate, a plurality of refrigeration pipes are arranged between the second refrigeration plate and the first refrigeration plate, and each refrigeration pipe is tangential with the outer wall of the bottom of the arc groove of the corresponding first refrigeration plate and the outer wall of the bottom of the arc groove of the second refrigeration plate.

Further, each baffle is attached to the inner wall surface of the bottom of all the arc-shaped grooves.

Further, each baffle slot is perpendicularly intersected with all the through slot holes.

Further, the separator is rectangular parallelepiped in shape.

Further, the fixing bar is cylindrical in shape.

Further, the perforations are circular in shape.

Further, the refrigerant tube is cylindrical in shape.

Further, the corresponding angle range of the side arc of the arc-shaped groove is 90-180 DEG

The beneficial effects are that: the invention is different from the prior art in that:

1. a plurality of arc grooves of refrigeration board, baffle groove set up on the refrigeration face to arc tank bottom face, insert the baffle in the arc tank, be equipped with the perforation on the baffle, the baffle inserts in the arc tank, effect lie in: the fixing rods are conveniently inserted into the arc grooves of each gap so as to penetrate through the perforations on each partition plate corresponding to the same row, so that the refrigeration plates are connected into a whole, and the partition plates are prevented from being fixed with the bottoms of the refrigeration plates by adopting a welding structure on the refrigeration plates.

2. A plurality of arc grooves of refrigeration board, the effect lies in: the utility model is more favorable to the ice-cube to refrigerate in curved inslot and forms, thereby the connection mode that inserts the perforation on the baffle that corresponds of every perforating hole fixed stick, and the effect lies in: the device is convenient to install, disassemble and replace, simple in structure and convenient to use.

Drawings

Fig. 1: is a schematic structural diagram of the invention;

fig. 2: is a schematic diagram of a refrigeration plate structure of the invention;

fig. 3: is a side view of the present invention;

fig. 4: is a front view of the invention;

fig. 5: is a schematic diagram of a separator of the present invention;

reference numerals: baffle 1, perforation 2, clearance arc groove 3, fixed stick 4, baffle groove 5, refrigeration pipe 6, first refrigeration board 7, second refrigeration board 8, arc groove 9.

Detailed Description

The invention is further described below with reference to the accompanying drawings.

A refrigeration evaporator structure as shown in fig. 1-5, comprising: the refrigeration tube 6, first refrigeration board 7, second refrigeration board 8, baffle 1, fixed stick 4, refrigeration tube 6 effect is inside lets in the refrigeration liquid refrigeration, first refrigeration board 7, second refrigeration board 8 effect are connected with refrigeration tube 6, be equipped with a plurality of spaced perforation 2 on the baffle 1, perforation 2's effect is used for inserting fixed stick 4, first refrigeration board 7 includes: the arc grooves 9 are used for refrigerating ice cubes, the arc grooves 9 are vertically arranged, the lower transverse edge of the arc groove 9 at the upper side is connected with the upper transverse edge of the arc groove 9 at the lower side between two adjacent arc grooves 9, a plurality of baffle grooves 5 are arranged on the surface of the first refrigerating plate 7, each baffle groove 5 is internally provided with a baffle 1, each perforation 2 on the baffle 1 is communicated with a gap arc groove 3 between two adjacent corresponding arc grooves 9, and each gap arc groove 3 is internally provided with a fixing rod 4 and the fixing rod 4 penetrates through each perforation 2 on each baffle 1 in the same row, so that the effect is that: the baffle 1 in every baffle groove 5 is fixed on first refrigeration board 7 by fixed stick 4, second refrigeration board 8 and first refrigeration board 7 structure are mutual symmetry, be provided with a plurality of refrigeration pipes 6 between second refrigeration board 8 and the first refrigeration board 7, every refrigeration pipe 6 is tangent with the arc wall 9 bottom of the arc wall 9 of the corresponding first refrigeration board 7, the arc wall 9 bottom of the arc wall of second refrigeration board 8, and the effect lies in: the evaporator can conveniently perform bidirectional refrigeration.

As shown in fig. 3, each partition board 1 is attached to the inner wall surface of the bottom of all the arc-shaped grooves 9, and has the following functions: it is more convenient for the partition board 1 to transfer coldness.

As shown in fig. 1 and 3, each partition plate groove 5 is perpendicularly intersected with all through groove holes 3, and the function is that: the insertion of the separator 1 into the separator slot 5 is facilitated, with the perforations 2 in the separator 1 aligned with the through-slots 3.

The baffle plate 1 is in a cuboid shape as shown in the figure, and is conveniently inserted into the baffle plate groove 5 to be attached to the upper wall and the lower wall of the refrigeration plate.

As shown in fig. 1, the fixing rod 4 is cylindrical in shape and serves to facilitate insertion into the through-slot 3.

As shown in fig. 5, the through hole 2 is circular in shape to facilitate penetration of the fixing rod 4.

As shown in fig. 1, the cylindrical shape of the refrigeration tube is used for facilitating tangential connection between the first refrigeration plate 7 and the second refrigeration plate 8.

The corresponding angle range of the side arc of the arc-shaped groove 9 is 90-180 degrees, so that the arc-shaped groove 9 with different evaporation surfaces can be manufactured conveniently;

manufacturing and forming: the refrigerating tube 6 is made of aluminum alloy, the outer diameter and the inner diameter of the refrigerating tube 6 are set according to actual use requirements, and the length of the outer diameter refrigerating tube 6 ranges from 40mm to 6000mm;

the inner diameter of the perforation 2 is 3-5mm;

the length of the refrigeration plate ranges from 120 mm to 6000mm, and the width is 100 mm to 2000mm; the material is aluminum alloy material, and when the refrigeration plate is manufactured, the first refrigeration plate 7, the second refrigeration plate 8 and the refrigeration pipe 6 are integrally formed;

the outer diameter of the fixing rod 4 is 2-5mm, and the fixing rod is made of aluminum alloy;

the corresponding angle of the side arc length of the arc-shaped groove 9 is 90 degrees to 180 degrees, and the side arc length is set according to actual use requirements;

and (2) mounting: firstly, all the partition plates 1 are inserted into the partition plate grooves 5 of the first refrigeration plate 7 and the second refrigeration plate 8, then the fixing rods 4 are sequentially inserted into each clearance arc groove 3 of the first refrigeration plate 7 and the second refrigeration plate 8, each fixing rod 4 passes through the corresponding perforation 2 on each partition plate 1 in the same row, all the partition plates 1 in the partition plate grooves 5 on the first refrigeration plate 7 and the second refrigeration plate 8 are fixed on the first refrigeration plate 7 and the second refrigeration plate 8 through the fixing rods 4, and each fixing rod 4 is clamped in the corresponding clearance arc groove 3 after being inserted into the corresponding clearance arc groove 3.

The present invention is not limited to the above-described embodiments, and all changes that do not depart from the structure and function of the present invention are intended to be within the scope of the present invention.

Claims (8)

1. A refrigeration evaporator structure, characterized by: comprising the following steps: refrigeration pipe (6), first refrigeration board (7), second refrigeration board (8), baffle (1), fixed stick (4), be equipped with perforation (2) of a plurality of intervals on baffle (1), first refrigeration board (7) include: a plurality of arc grooves (9), a plurality of arc grooves (9) are vertically arranged, be the lower horizontal limit of arc groove (9) of upside and the last horizontal limit of arc groove (9) of downside link to each other between two adjacent arc grooves (9), be equipped with a plurality of baffle grooves (5) on the face of first refrigeration board (7), every baffle groove (5) interpolation has baffle (1) and each perforation (2) on baffle (1) communicates with each other with clearance arc groove (3) between two adjacent arc grooves (9) that correspond, all insert fixed stick (4) and fixed stick (4) pass on same line each baffle (1) that correspond in every clearance arc groove (3), second refrigeration board (8) and first refrigeration board (7) structure each other are symmetrical, be provided with a plurality of refrigeration pipes (6) between second refrigeration board (8) and first refrigeration board (7), every refrigeration pipe (6) and the tangent outer wall (9) of the outer wall of the arc groove (9) of the first refrigeration board (7) that corresponds.

2. A refrigeration evaporator construction as set forth in claim 1 wherein: each baffle groove (5) is perpendicularly intersected with all clearance arc grooves (3).

3. A refrigeration evaporator construction as set forth in claim 2 wherein: each baffle (1) is attached to the inner wall surface of the bottom of all the arc grooves (9).

4. A refrigeration evaporator structure according to claim 3 wherein: the partition board (1) is in a cuboid shape.

5. A refrigeration evaporator construction as set forth in claim 4 wherein: the fixing rod (4) is cylindrical in shape.

6. A refrigeration evaporator construction as set forth in claim 5 wherein: the perforations (2) are circular in shape.

7. A refrigeration evaporator construction as set forth in claim 6 wherein: the refrigerating pipe (6) is cylindrical in shape.

8. A refrigeration evaporator construction as set forth in claim 1 wherein: the corresponding angle range of the side arc of the arc-shaped groove (9) is 90-180 degrees.